2021
DOI: 10.5194/mr-2-281-2021
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Non-classical disproportionation revealed by photo-chemically induced dynamic nuclear polarization NMR

Abstract: Abstract. Photo-chemically induced dynamic nuclear polarization (photo-CIDNP) was used to observe the light-induced disproportionation reaction of 6,7,8-trimethyllumazine starting out from its triplet state to generate a pair of radicals comprising a one-electron reduced and a one-electron oxidized species. Our evidence is based on the measurement of two marker proton hyperfine couplings, Aiso(H(6α)) and Aiso(H(8α)), which we correlated to predictions from density functional theory. The ratio of these two hype… Show more

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Cited by 10 publications
(11 citation statements)
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“…A similar mismatch of slopes for proportionality dependences was previously found for CIDNP of two products detected during the light-induced disproportionation reaction of 6,7,8-trimethyl lumazine. 26…”
Section: Resultsmentioning
confidence: 99%
“…A similar mismatch of slopes for proportionality dependences was previously found for CIDNP of two products detected during the light-induced disproportionation reaction of 6,7,8-trimethyl lumazine. 26…”
Section: Resultsmentioning
confidence: 99%
“…Interestingly, the structural similarity of the hetero-aromatic ring in favipiravir to the middle part of ribo avin is immediately apparent [33]. Wörner et al published photo-CIDNP measurements for non-classical disproportionation [41]. The effect of charge redistribution within the molecule is re ected in the hyperpolarizability of these systems.…”
Section: Discussionmentioning
confidence: 99%
“…[39][40][41] This method often reveals elusive paramagnetic species that even escape detection by EPR. [39,[42][43][44][45] Photo-CIDNP in solution relies on the fact that a radical pair state generated by photo-induced electron transfer is formed with a multiplicity that is equal to that of its precursor state due to the conservation of spin angular momentum. This could be an (excited) singlet state (spin quantum number S = 0) or, if intersystem crossing precedes electron transfer, a triplet state (S = 1).…”
Section: Introductionmentioning
confidence: 99%
“…Driven by the lack of knowledge of the unsubstituted 5‐deazaflavin radical and motivated by a recent report on the catalytic capabilities of C5‐derivatized 5‐deazaflavins [21] we applied photo‐CIDNP, an NMR technique frequently used to study cyclic chemical photoreactions involving short‐lived radicals [39–41] . This method often reveals elusive paramagnetic species that even escape detection by EPR [39,42–45] . Photo‐CIDNP in solution relies on the fact that a radical pair state generated by photo‐induced electron transfer is formed with a multiplicity that is equal to that of its precursor state due to the conservation of spin angular momentum.…”
Section: Introductionmentioning
confidence: 99%